On the reliability function for a BSC with noisy feedback

On the reliability function for a BSC with noisy feedback
Burnashev, M.; Yamamoto, H.
2010-07-23 00:00:00
A binary symmetric channel is used for information transmission. There is also another noisy binary symmetric channel (feedback channel), and the transmitter observes without delay all outputs of the forward channel via the feedback channel. Transmission of an exponential number of messages is considered (i.e., the transmission rate is positive). The achievable decoding error exponent for this combination of channels is studied. It is shown that if the crossover probability of the feedback channel is less than a certain positive value, then the achievable error exponent is better than the decoding error exponent of a channel without feedback.
http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.pngProblems of Information TransmissionSpringer Journalshttp://www.deepdyve.com/lp/springer-journals/on-the-reliability-function-for-a-bsc-with-noisy-feedback-VcyykHDoD2

Abstract

A binary symmetric channel is used for information transmission. There is also another noisy binary symmetric channel (feedback channel), and the transmitter observes without delay all outputs of the forward channel via the feedback channel. Transmission of an exponential number of messages is considered (i.e., the transmission rate is positive). The achievable decoding error exponent for this combination of channels is studied. It is shown that if the crossover probability of the feedback channel is less than a certain positive value, then the achievable error exponent is better than the decoding error exponent of a channel without feedback.

Journal

Problems of Information Transmission
– Springer Journals

Published: Jul 23, 2010

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References

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